Enhanced protection for enhanced PCB performance
Conformal coatings are designed to protect printed circuit boards and related equipment from their environment. Typically applied at 25-75μm, these coatings ‘conform’ to the contours of the board allowing for excellent protection and coverage, ultimately extending the working life of the PCB.More info > Download product selector chart > Download product brochure >
The use of conformal coatings is particularly important in automotive, military, aerospace, marine, lighting, industrial and green energy applications. Due to the rapid expansion of the electronics industry, conformal coatings are also finding their way into the domestic and mobile electronics industries, providing the necessary combination of high performance and reliability within a vast array of electronic devices.
Conformal coatings can be used in a wide range of environments to protect printed circuit boards from moisture, salt spray, chemicals and temperature extremes in order to prevent corrosion, mould growth and electrical failures, for example. The protection provided by conformal coatings allows for higher power and closer track spacing, in turn enabling designers to meet the demands of miniaturisation and reliability.
Electrolube is among the world’s foremost experts in the formulation and application of conformal coatings designed to meet international approvals (including European and American military specifications). The range of products currently available comprises acrylics, silicones, polyurethanes, hybrid chemistries and environmentally friendly options.
Electrolube can offer both transparent and pigmented coatings to improve or camouflage the appearance of printed circuit boards. The range also includes a number of ancillary products to complement the use of our conformal coatings, including thinners and removers, peelable coating masks and thixotropic materials for dam and fill applications.
There are four main types of application method used for conformal coatings.
Products are available in bulk, aerosol and small packaging sizes, therefore the correct method and conditions should be assessed for each application. Careful consideration of the advised humidity and temperature conditions for the selected coating should be taken for both application and curing stages.
If the wrong application method is chosen, or the coating is not applied correctly it can have a big impact on the effectiveness of the coating and as a result, the performance of the PCB.
This method as the name suggests uses a brush to apply the coating onto the circuit board.
The benefits of using this application method are primarily that it can be more cost effective for small scale production, and it is easy to select which areas to coat.
However, we generally advise against brush coating application as it is not always easy to apply an even coating. This can lead to either a lack of adequate protection if the coating is too thin, or if the coating is too thick, can lead to the coating cracking (especially under thermal cycling). Another disadvantage of this method is that you can only coat one side of the PCB at a time.
With this method, the PCB is ‘dipped’ into the coating by machine, immersing the entire board and allowing the coating to easily get into gaps and under components otherwise hard to reach.
Most coatings can be used for this process, however dipping generally requires higher viscosity/higher solids content materials and any coating which reacts to the environment such as moisture-curing coatings are difficult to usesince the tank cannot be sealed from moisture contained on the boards that are being immersed.
Disadvantages of this method are:
Some PCBs may not be suitable due to design, if components are close together.
Accurate masking is essential for connectors and other areas that must not be coated. Masking is often a labour intensive process , and is 100% waste. The material (liquid or tape) must be applied, dried, and removed, and often the coating must be touched up if areas are damaged during demasking, and then the masking material must be thrown away. The use of custom made rubber masking boots, designed to form fit the components being masked, can save time, but is still an added process and additional expense that is difficult to automate.
Selective coating is a method by which you ‘select’ which part of the PCB you would like to coat. Usually this method uses a machine which you program to coat only the areas which you want.
This method is suitable for all levels of manufacture and has the benefit over dip coating of needing minimum masking, and if the board is designed well for coating, masking can be avoided entirely. Being applied by machine also means you are guaranteed an even, uniform and repeatable coating application to the recommended thickness. It can usually be applied more quickly and is suitable for in-line, one-piece flow production.
The downside to this method is that it requires a more sophisticated operator to run the machine, and it is not always easy to get penetration under components. Programming can also be time intensive, and require machine downtime, which can limit the appeal of this method in low-volume, high-mix production environments. It also can also lead to ‘cobwebbing’ or >blooming
Spray coating is, as the name suggests a method where the coating is sprayed onto the board, usually applied by hand in a spray booth or by aerosol, although it can be automated as in the selective coating process.
This is one of the most cost effective and convenient ways to apply a coating as it can be done on the benchtop if necessary and is therefore a good choice for rework or repair items, or small scale projects.
Most coatings can be used for this application method, however it requires a low viscosity, so solvent based coatings may need to be diluted to the required viscosity using the appropriate thinners.
The downsides to this method are that the coating can be over-applied resulting in areas thicker than recommended. As with the machine applied spray coating, it can also be difficult to get underneath components.
Finally, this method can easily lead to ‘cobwebbing’ or blooming
Finally, when selecting the coating application method you should review the coatings curing instructions. As is mentioned above, some application methods are not suitable for certain curing types. More information on the types of cure
There are several environmental factors which should be considered when applying coatings.
Each product has a detailed outline of the best application method within the TDS (technical data sheet) provided on each product page.
At Electrolube we pride ourselves on the care and attention we provide our customers and our technical team are more than happy to help you with choosing the correct application for you. We work closely with a number of machine suppliers, both locally and internationally to provide the best possible support throughout your contact with us.